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Recharge Wrap-up: Mirai earns Toyota "Most Innovative" honor, Tesla cold-weather range

A Tesla driver has graphed the effect of cold weather on the driving range of his Model S. Rob at Teslarati kept track of the amount of miles driven and energy used and mapped that against temperature readings to find how the colder temperatures affect efficiency. The results were an average of 10 miles of range lost for every 10-degree drop in temperature. Also, he calculated that drivers will lose about 25 percent more range when the roads are slippery. Read more at Teslarati. Albany Engineered Composites (AEC) is teaming with automotive engineering and consulting company Ricardo to provide lightweight components to the automotive industry. AEC produces composites for the aerospace industry, and having proven themselves in that field, they show promise for helping automakers make their cars lighter and more efficient without sacrificing structural integrity. "The agreement announced today is excellent news for our global automotive customers as we work to find further weight reductions in vehicles to meet future CO2 reductions," says Ricardo CEO Mark Garrett. With carbon composite prices expected to drop, Garrett believes this is an "attractive solution" for structural components. Read more at Ricardo's website. Toyota Motor Europe (TME) wants to recover all of its hybrid batteries for remanufacturing. TME currently recovers 91 percent of Toyota and Lexus batteries at the end of the vehicles' lives through dealerships, and is now working with independent end-of-life vehicle treatment operators to recover the rest. Beyond just being recycled, Toyota is looking into remanufacturing batteries for other vehicles or for stationary energy storage systems. Read more in the press release below. Fast Company Magazine has recognized Toyota as one of the 50 Most Innovative Companies for 2015 for its Mirai fuel cell sedan. "Toyota plans to do for fuel cells what its Prius did for hybrids: make them ubiquitous and top of mind for environmentally conscious consumers," says Fast Company. The article also notes that Toyota has also made its fuel cell patent public and invested in hydrogen fueling infrastructure. Toyota is ranked number 18 in the Most Innovative list, just below Tesla. Read more at Fast Company.

Solid-state batteries: Why Toyota's plans could be a game-changer for EVs

Word out of Japan today is that Toyota is working on launching a new solid-state battery for electric vehicles that will put it solidly in the EV game by 2022. Which leads to a simple question: What is a solid-state battery, and why does it matter? Back in February, John Goodenough observed, "Cost, safety, energy density, rates of charge and discharge and cycle life are critical for battery-driven cars to be more widely adopted." And risking a bad pun on his surname, he seemed to be implying that all of those characteristics weren't currently good enough in autos using lithium-ion batteries. This comment is relevant because Goodenough, professor at the Cockrell School of Engineering at the University of Texas at Austin - it so happens, he turns 95 today - is the co-inventor of the lithium-ion battery, the type of battery that is pretty much the mainstay of current electric vehicles. And he and a research fellow at U of T were announcing they'd developed a solid-state battery, one that has improved energy density (which means a car so equipped can drive further) and can be recharged more quickly and more often (a.k.a., "long cycle life") than a lithium-ion battery. (Did you ever notice that with time your iPhone keeps less of a charge than it did back when it was shiny and new? That's because it has a limited cycle life. Which is one thing when you're talking about a phone. And something else entirely when it involves a whole car.) What's more, there is reduced mass for a solid-state battery. And there isn't the same safety concern that exists with li-ion batteries vis-a- vis conflagration (which is why at airplane boarding gates they say they'll check your carryon as long as you remove all lithium-ion batteries). Lithium-ion batteries may be far more advanced than the lead-acid batteries that are under the hood of essentially every car that wasn't built in Fremont, Calif., but as is the case with those heavy black rectangles, li-ion batteries contain a liquid. In the lithium-ion battery, the liquid, the electrolyte, moves the lithium ions from the negative to the positive side (anode to cathode) of the battery. In a solid-state design, there is no liquid sloshing around, which also means that there's no liquid that would freeze at low operating temperatures. What Toyota is using for its solid-state battery is still unknown, as is the case for the solid-state batteries that Hyundai is reportedly working on for its EVs.

Toyota shows a smoother autonomous Lexus for CES

Toyota is bringing a new research vehicle to CES. The TRI-P4 autonomous driving test vehicle, based on the Lexus LS500h, is a major step ahead, according to Toyota, as it has improved computing power and additional cameras for better reaction times. Earlier test mules have also used the LS as a basis, and the shift to the new, fifth generation LS brings chassis and steering-control benefits, so the vehicle's movements are smoother in automated mode. The camera tech has also been better integrated into the vehicle design, courtesy of CALTY in Ann Arbor, Michigan. Development has been swift, as the TRI's P2.1 car was unveiled in 2017. The P4 car will be used for Toyota Research Institute's Guardian and Chauffeur mode development. The two tiers differ somewhat, as TRI's Ryan Eustice explains: "Our Chauffeur development is focused on full autonomy, where the human is essentially removed from the driving equation, either completely in all environments, or within a restricted driving domain. Guardian, on the other hand, is being designed to amplify human performance behind the wheel, not replace it. The introduction of the new P4 platform will help us accelerate the development of both tracks when it joins our fleet this spring." The vehicle's situational awareness is boosted by two extra cameras facing on the sides, and a new imaging sensor both forward and rearward. Toyota says the P4's lidar setup is a carryover from the previous platform, but that its machine learning is much improved by its more powerful computer setup. The electricity required by the P4's computing power also comes from the hybrid battery, and as the computer "brain" is now housed vertically against the rear seat's backing, actual trunk space has been freed. More LS500hs will begin to be modified into TRI-P4 vehicles during spring 2019. This content is hosted by a third party. To view it, please update your privacy preferences. Manage Settings.